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Determining Remaining Strength

of Corroded Pipelines

Houston Section

April 10, 2012

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• Formerly Duke Energy Field Services the Company wasrenamed on January 1, 2007 to align with DCPMidstream Partners.

• DCP Midstream, LLC is a private company. A 50-50 jointventure between Spectra Energy and ConocoPhillips.

• One of the nation's largest natural gas gatherers andprocessors (7 Bcf/day), the largest natural gas liquids(NGLs) producer and one of the largest NGL marketersin the U.S.

• Operates in 26 states, gathers raw natural gas through~62,000 miles of pipe and processes gas through 61plants, produces 360,000 bbls/day NGLs

• Over 3,000 employees

Who is DCP Midstream?

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4

Introduction

• Pipeline Design

•  ASME B31G

• Limits for B31G

• Misc

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Pipeline Design

Barlow’s formula relates pressure to pipeattributes

P = 2 St / D

• P = Design pressure

• S = Yield strength in psi

• D = Outside diameter•  t = Nominal wall thickness

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6

Pipeline Design

• Barlow’s formula 

• P = (2 St/D) x F x E x T

P = Design pressure

S = Yield strength in psi

D = Outside diameter

t = Nominal wall thickness

F = Design factor

E = Longitudinal joint factor

T = Temperature derating factor… 

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Peter Barlow

Peter Barlow

Woolwich -SE of London. Active 1741 –1939

7

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Pipeline Design

Design factor (F)

• Liquid Pipelines 0.72

• Gas Pipelines

Class 1 0.72

Class 2 0.60

Class 3 0.50

Class 4 0.40

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Pipeline Design

Example: Liquid line6” .219 wt X42

P = (2 x 42000 x .219 / 6.625)P = 2777 psi

Pmax mop = 2777 psi x .72 = 1999

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10

ASME B31G

 A supplement to ASME B31

Calculates Burst pressure with pipe parameters

and metal loss >>

• Length - L

• depth - d

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ASME B31G

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ASME B31G

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ASME B31G

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ASME B31G

• Based on Battelle Institute work July 1971

•  ASME Guide

•  ASME B31G - 1984

• Modified B31G - 1991

• Current edition B31G-2009

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15

ASME B31G

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ASME B31G

Equations are empirical or in some cases semi-empirical.

What is this?Empirical knowledge comes from observation only. You don't know

why or have any idea of why reaction A follows situation B but you

have seen it happen so many times that you KNOW that is what is

going to happen.

People knew that things fell down long before there was a theory of

gravitation. Such knowledge was empirical.

Empirical knowledge not only comes from observation but also by

testing.

Read more: cp

http://wiki.answers.com/Q/What_is_empirical_knowledge#ixzz1rfG

SpoND 16

http://wiki.answers.com/Q/What_is_empirical_knowledgehttp://wiki.answers.com/Q/What_is_empirical_knowledgehttp://wiki.answers.com/Q/What_is_empirical_knowledgehttp://wiki.answers.com/Q/What_is_empirical_knowledgehttp://wiki.answers.com/Q/What_is_empirical_knowledge

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ASME B31G

3 versions

•  ASME B31G

• Modified B31G

• Effective Area Method

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ASME B31G

Difference in methods

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ASME B31G

 Application

• Yes for blunt metal loss

• Yes for external corrosion

• Yes for internal corrosion

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ASME B31G

Limitations (RULES)

• Depth less than 80% wt

• No Cracks

• No gouges

• No stress Concentrator

• No selective seam corrosion

• No selective weld corrosion

•  Apply operating characteristics Psafe

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ASME B31G

In operations, always

• Identify cause of metal loss

• Mitigate cause of metal loss

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B31G

• Company Operating Manuals

• KAPA (“KAPA” is an acronym for “Kiefner & Associates Pipe Assessment”) 

• RSTRENG® 

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B31 G Interaction

Interaction rule

Commonly used 1” x 6t interaction

• 1 inch in axial length separation

• 6 times pipe wall thickness for width

separtion (.250 wt = 1.5 in)

• If separation < 1” x 6t group or cluster the

anomalies together.

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Interaction B31G

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B31G

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B31G

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Since L >15/16” must repair  

What about Modified B31G?

ASME B31G

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Links and Reference

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http://www.kiefner.com/downloads.asp 

http://www.ttoolboxes.com/Products/ 

Duane Cronin 

https://uwspace.uwaterloo.ca/bitstream/10012/478/

1/NQ51187.pdf  

http://www.kiefner.com/downloads.asphttp://www.ttoolboxes.com/Products/https://uwspace.uwaterloo.ca/bitstream/10012/478/1/NQ51187.pdfhttps://uwspace.uwaterloo.ca/bitstream/10012/478/1/NQ51187.pdfhttps://uwspace.uwaterloo.ca/bitstream/10012/478/1/NQ51187.pdfhttps://uwspace.uwaterloo.ca/bitstream/10012/478/1/NQ51187.pdfhttps://uwspace.uwaterloo.ca/bitstream/10012/478/1/NQ51187.pdfhttps://uwspace.uwaterloo.ca/bitstream/10012/478/1/NQ51187.pdfhttp://www.ttoolboxes.com/Products/http://www.ttoolboxes.com/Products/http://www.kiefner.com/downloads.asp

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Kapa

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Kapa p2

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Limits for B31G

• Depth less than 80% wt

•  Apply operating characteristics Psafe 

• No Cracks• No gouges

• No stress Concentrator

• No selective seam corrosion

• No selective weld corrosion

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Limits for B31G

OK for blunt metal loss

• Internal Corrosion

• External Corrosion

• Welds if metal loss not selective

Must stop cause of metal loss – remember identify

the cause, and fix

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ILI spreadsheets -example B31G calcs

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EVENT LOCATION   ANOMALY DESCRIPTION   ANOMALY REPAIR FACTORS 

EVENT

WHEEL

COUNT

(ft.) 

DIST

FROM U/S

WELD

(ft.) 

DIST TO

D/S

WELD

(ft.) 

CLOCK DEPTH

% 

LENGTH

(in.) 

INT /

EXTW.T.

(in.) 

CALC.

PFAIL

.85dl

(psi) 

CALC.PFAIL

.85dl /

MAOP

COMMEN

TS

 Anomaly 103397.81 27.42 30.81 1:50 50 22.9 I 0.175 990 1.16

 Anomaly 111302.51 32.43 30.94 1:00 54 10.3 I 0.175 989 1.16

Girth

Weld ID 

Relative

Distance

(ft) 

 Absolute

Distance

(ft) 

Comment

s 

Peak

Depth

(%) 

Length

(in)  Width (in) 

Local Wall

Thickness

(in) 

SMYS

(psi)

RSTREN

G Burst

(psi) 

Orientatio

n (clock) 

Orientation

(Degrees) 

19.51 211,621.20 Metal

Loss

EXTERNA

41% 7.86 1.39 0.250 42000 1509 6:30 195

20.61 211,622.30 Metal

Loss

EXTERNA

39% 10.06 2.84 0.250 42000 1538 5:45 171

Pipeline

Feature  INT/ EXT Odometer

(ft)  W. T. Pipe

Grade

Depth

(%) Depth

(in.) Length

(in.) Width

(in.) O'Clock

Orientat'n 

Burst

Pressure

(psi)  ERF 

Metal

Loss EXT  519.01  0.312  X52  40% 0.125  0.8  0.6  3:01  2965  1.165 

Metal

Loss EXT  523.04  0.312  X52  36% 0.112  0.6  0.6  3:31  2999  1.179 

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T t S ti 3 b tt i t i l

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Test Section 3 bottom view, typical

pitting 20-40 %

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